Innovenergy_trunk/frontend/node_modules/fp-ts/lib/Choice.d.ts

/**
 * The `Choice` class extends `Profunctor` with combinators for working with
 * sum types.
 *
 * `left` and `right` lift values in a `Profunctor` to act on the `Left` and
 * `Right` components of a sum, respectively.
 *
 * Looking at `Choice` through the intuition of inputs and outputs
 * yields the following type signature:
 *
 * ```purescript
 * left ::  forall input output a. p input output -> p (Either input a) (Either output a)
 * right :: forall input output a. p input output -> p (Either a input) (Either a output)
 * ```
 *
 * If we specialize the profunctor `p` to the `function` arrow, we get the following type
 * signatures:
 *
 * ```purescript
 * left ::  forall input output a. (input -> output) -> (Either input a) -> (Either output a)
 * right :: forall input output a. (input -> output) -> (Either a input) -> (Either a output)
 * ```
 *
 * When the `profunctor` is `Function` application, `left` allows you to map a function over the
 * left side of an `Either`, and `right` maps it over the right side (same as `map` would do).
 *
 * Adapted from https://github.com/purescript/purescript-profunctor/blob/master/src/Data/Profunctor/Choice.purs
 *
 * @since 2.0.0
 */
import { Either } from './Either'
import { HKT2, Kind2, Kind3, URIS2, URIS3, URIS4, Kind4 } from './HKT'
import { Profunctor, Profunctor2, Profunctor3, Profunctor4 } from './Profunctor'
import { Category, Category2, Category3, Category4 } from './Category'
/**
 * @category model
 * @since 2.0.0
 */
export interface Choice<F> extends Profunctor<F> {
  readonly left: <A, B, C>(pab: HKT2<F, A, B>) => HKT2<F, Either<A, C>, Either<B, C>>
  readonly right: <A, B, C>(pbc: HKT2<F, B, C>) => HKT2<F, Either<A, B>, Either<A, C>>
}
/**
 * @category model
 * @since 2.0.0
 */
export interface Choice2<F extends URIS2> extends Profunctor2<F> {
  readonly left: <A, B, C>(pab: Kind2<F, A, B>) => Kind2<F, Either<A, C>, Either<B, C>>
  readonly right: <A, B, C>(pbc: Kind2<F, B, C>) => Kind2<F, Either<A, B>, Either<A, C>>
}
/**
 * @category model
 * @since 2.0.0
 */
export interface Choice3<F extends URIS3> extends Profunctor3<F> {
  readonly left: <R, A, B, C>(pab: Kind3<F, R, A, B>) => Kind3<F, R, Either<A, C>, Either<B, C>>
  readonly right: <R, A, B, C>(pbc: Kind3<F, R, B, C>) => Kind3<F, R, Either<A, B>, Either<A, C>>
}
/**
 * @category model
 * @since 2.0.0
 */
export interface Choice4<F extends URIS4> extends Profunctor4<F> {
  readonly left: <S, R, A, B, C>(pab: Kind4<F, S, R, A, B>) => Kind4<F, S, R, Either<A, C>, Either<B, C>>
  readonly right: <S, R, A, B, C>(pbc: Kind4<F, S, R, B, C>) => Kind4<F, S, R, Either<A, B>, Either<A, C>>
}
/**
 * Compose a value acting on a sum from two values, each acting on one of
 * the components of the sum.
 *
 * Specializing `split` to function application would look like this:
 *
 * ```purescript
 * split :: forall a b c d. (a -> b) -> (c -> d) -> (Either a c) -> (Either b d)
 * ```
 *
 * We take two functions, `f` and `g`, and we transform them into a single function which
 * takes an `Either`and maps `f` over the left side and `g` over the right side.  Just like
 * `bimap` would do for the `Bifunctor` instance of `Either`.
 *
 * @since 2.10.0
 */
export declare function split<P extends URIS4>(
  P: Choice4<P>,
  C: Category4<P>
): <S, R, A, B, C, D>(
  pab: Kind4<P, S, R, A, B>,
  pcd: Kind4<P, S, R, C, D>
) => Kind4<P, S, R, Either<A, C>, Either<B, D>>
export declare function split<P extends URIS3>(
  P: Choice3<P>,
  C: Category3<P>
): <R, A, B, C, D>(pab: Kind3<P, R, A, B>, pcd: Kind3<P, R, C, D>) => Kind3<P, R, Either<A, C>, Either<B, D>>
export declare function split<P extends URIS2>(
  P: Choice2<P>,
  C: Category2<P>
): <A, B, C, D>(pab: Kind2<P, A, B>, pcd: Kind2<P, C, D>) => Kind2<P, Either<A, C>, Either<B, D>>
export declare function split<P>(
  P: Choice<P>,
  C: Category<P>
): <A, B, C, D>(pab: HKT2<P, A, B>, pcd: HKT2<P, C, D>) => HKT2<P, Either<A, C>, Either<B, D>>
/**
 * Compose a value which eliminates a sum from two values, each eliminating
 * one side of the sum.
 *
 * This combinator is useful when assembling values from smaller components,
 * because it provides a way to support two different types of input.
 *
 * Specializing `fanIn` to function application would look like this:
 *
 * ```purescript
 * fanIn :: forall a b c d. (a -> c) -> (b -> c) -> Either a b -> c
 * ```
 *
 * We take two functions, `f` and `g`, which both return the same type `c` and we transform them into a
 * single function which takes an `Either` value with the parameter type of `f` on the left side and
 * the parameter type of `g` on the right side. The function then runs either `f` or `g`, depending on
 * whether the `Either` value is a `Left` or a `Right`.
 * This allows us to bundle two different computations which both have the same result type into one
 * function which will run the appropriate computation based on the parameter supplied in the `Either` value.
 *
 * @since 2.10.0
 */
export declare function fanIn<P extends URIS4>(
  P: Choice4<P>,
  C: Category4<P>
): <S, R, A, B, C>(pac: Kind4<P, S, R, A, C>, pbc: Kind4<P, S, R, B, C>) => Kind4<P, S, R, Either<A, B>, C>
export declare function fanIn<P extends URIS3>(
  P: Choice3<P>,
  C: Category3<P>
): <R, A, B, C>(pac: Kind3<P, R, A, C>, pbc: Kind3<P, R, B, C>) => Kind3<P, R, Either<A, B>, C>
export declare function fanIn<P extends URIS2>(
  P: Choice2<P>,
  C: Category2<P>
): <A, B, C>(pac: Kind2<P, A, C>, pbc: Kind2<P, B, C>) => Kind2<P, Either<A, B>, C>
export declare function fanIn<P>(
  P: Choice<P>,
  C: Category<P>
): <A, B, C>(pac: HKT2<P, A, C>, pbc: HKT2<P, B, C>) => HKT2<P, Either<A, B>, C>
/**
 * Use [`split`](#split) instead.
 *
 * @category zone of death
 * @since 2.0.0
 * @deprecated
 */
export declare function splitChoice<F extends URIS3>(
  F: Category3<F> & Choice3<F>
): <R, A, B, C, D>(pab: Kind3<F, R, A, B>, pcd: Kind3<F, R, C, D>) => Kind3<F, R, Either<A, C>, Either<B, D>>
/** @deprecated */
export declare function splitChoice<F extends URIS2>(
  F: Category2<F> & Choice2<F>
): <A, B, C, D>(pab: Kind2<F, A, B>, pcd: Kind2<F, C, D>) => Kind2<F, Either<A, C>, Either<B, D>>
/** @deprecated */
export declare function splitChoice<F>(
  F: Category<F> & Choice<F>
): <A, B, C, D>(pab: HKT2<F, A, B>, pcd: HKT2<F, C, D>) => HKT2<F, Either<A, C>, Either<B, D>>
/**
 * Use [`fanIn`](#fanIn) instead.
 *
 * @since 2.0.0
 * @deprecated
 */
export declare function fanin<F extends URIS3>(
  F: Category3<F> & Choice3<F>
): <R, A, B, C>(pac: Kind3<F, R, A, C>, pbc: Kind3<F, R, B, C>) => Kind3<F, R, Either<A, B>, C>
/** @deprecated */
export declare function fanin<F extends URIS2>(
  F: Category2<F> & Choice2<F>
): <A, B, C>(pac: Kind2<F, A, C>, pbc: Kind2<F, B, C>) => Kind2<F, Either<A, B>, C>
/** @deprecated */
export declare function fanin<F>(
  F: Category<F> & Choice<F>
): <A, B, C>(pac: HKT2<F, A, C>, pbc: HKT2<F, B, C>) => HKT2<F, Either<A, B>, C>
adding untracked frontend and typescript files 2023-02-21 06:27:20 +00:00			`/**`
			* The `Choice` class extends `Profunctor` with combinators for working with
			`* sum types.`
			`*`
			* `left` and `right` lift values in a `Profunctor` to act on the `Left` and
			* `Right` components of a sum, respectively.
			`*`
			* Looking at `Choice` through the intuition of inputs and outputs
			`* yields the following type signature:`
			`*`
			* ```purescript
			`* left :: forall input output a. p input output -> p (Either input a) (Either output a)`
			`* right :: forall input output a. p input output -> p (Either a input) (Either a output)`
			* ```
			`*`
			* If we specialize the profunctor `p` to the `function` arrow, we get the following type
			`* signatures:`
			`*`
			* ```purescript
			`* left :: forall input output a. (input -> output) -> (Either input a) -> (Either output a)`
			`* right :: forall input output a. (input -> output) -> (Either a input) -> (Either a output)`
			* ```
			`*`
			* When the `profunctor` is `Function` application, `left` allows you to map a function over the
			* left side of an `Either`, and `right` maps it over the right side (same as `map` would do).
			`*`
			`* Adapted from https://github.com/purescript/purescript-profunctor/blob/master/src/Data/Profunctor/Choice.purs`
			`*`
			`* @since 2.0.0`
			`*/`
			`import { Either } from './Either'`
			`import { HKT2, Kind2, Kind3, URIS2, URIS3, URIS4, Kind4 } from './HKT'`
			`import { Profunctor, Profunctor2, Profunctor3, Profunctor4 } from './Profunctor'`
			`import { Category, Category2, Category3, Category4 } from './Category'`
			`/**`
			`* @category model`
			`* @since 2.0.0`
			`*/`
			`export interface Choice<F> extends Profunctor<F> {`
			`readonly left: <A, B, C>(pab: HKT2<F, A, B>) => HKT2<F, Either<A, C>, Either<B, C>>`
			`readonly right: <A, B, C>(pbc: HKT2<F, B, C>) => HKT2<F, Either<A, B>, Either<A, C>>`
			`}`
			`/**`
			`* @category model`
			`* @since 2.0.0`
			`*/`
			`export interface Choice2<F extends URIS2> extends Profunctor2<F> {`
			`readonly left: <A, B, C>(pab: Kind2<F, A, B>) => Kind2<F, Either<A, C>, Either<B, C>>`
			`readonly right: <A, B, C>(pbc: Kind2<F, B, C>) => Kind2<F, Either<A, B>, Either<A, C>>`
			`}`
			`/**`
			`* @category model`
			`* @since 2.0.0`
			`*/`
			`export interface Choice3<F extends URIS3> extends Profunctor3<F> {`
			`readonly left: <R, A, B, C>(pab: Kind3<F, R, A, B>) => Kind3<F, R, Either<A, C>, Either<B, C>>`
			`readonly right: <R, A, B, C>(pbc: Kind3<F, R, B, C>) => Kind3<F, R, Either<A, B>, Either<A, C>>`
			`}`
			`/**`
			`* @category model`
			`* @since 2.0.0`
			`*/`
			`export interface Choice4<F extends URIS4> extends Profunctor4<F> {`
			`readonly left: <S, R, A, B, C>(pab: Kind4<F, S, R, A, B>) => Kind4<F, S, R, Either<A, C>, Either<B, C>>`
			`readonly right: <S, R, A, B, C>(pbc: Kind4<F, S, R, B, C>) => Kind4<F, S, R, Either<A, B>, Either<A, C>>`
			`}`
			`/**`
			`* Compose a value acting on a sum from two values, each acting on one of`
			`* the components of the sum.`
			`*`
			* Specializing `split` to function application would look like this:
			`*`
			* ```purescript
			`* split :: forall a b c d. (a -> b) -> (c -> d) -> (Either a c) -> (Either b d)`
			* ```
			`*`
			* We take two functions, `f` and `g`, and we transform them into a single function which
			* takes an `Either`and maps `f` over the left side and `g` over the right side. Just like
			* `bimap` would do for the `Bifunctor` instance of `Either`.
			`*`
			`* @since 2.10.0`
			`*/`
			`export declare function split<P extends URIS4>(`
			`P: Choice4<P>,`
			`C: Category4<P>`
			`): <S, R, A, B, C, D>(`
			`pab: Kind4<P, S, R, A, B>,`
			`pcd: Kind4<P, S, R, C, D>`
			`) => Kind4<P, S, R, Either<A, C>, Either<B, D>>`
			`export declare function split<P extends URIS3>(`
			`P: Choice3<P>,`
			`C: Category3<P>`
			`): <R, A, B, C, D>(pab: Kind3<P, R, A, B>, pcd: Kind3<P, R, C, D>) => Kind3<P, R, Either<A, C>, Either<B, D>>`
			`export declare function split<P extends URIS2>(`
			`P: Choice2<P>,`
			`C: Category2<P>`
			`): <A, B, C, D>(pab: Kind2<P, A, B>, pcd: Kind2<P, C, D>) => Kind2<P, Either<A, C>, Either<B, D>>`
			`export declare function split<P>(`
			`P: Choice<P>,`
			`C: Category<P>`
			`): <A, B, C, D>(pab: HKT2<P, A, B>, pcd: HKT2<P, C, D>) => HKT2<P, Either<A, C>, Either<B, D>>`
			`/**`
			`* Compose a value which eliminates a sum from two values, each eliminating`
			`* one side of the sum.`
			`*`
			`* This combinator is useful when assembling values from smaller components,`
			`* because it provides a way to support two different types of input.`
			`*`
			* Specializing `fanIn` to function application would look like this:
			`*`
			* ```purescript
			`* fanIn :: forall a b c d. (a -> c) -> (b -> c) -> Either a b -> c`
			* ```
			`*`
			* We take two functions, `f` and `g`, which both return the same type `c` and we transform them into a
			* single function which takes an `Either` value with the parameter type of `f` on the left side and
			* the parameter type of `g` on the right side. The function then runs either `f` or `g`, depending on
			* whether the `Either` value is a `Left` or a `Right`.
			`* This allows us to bundle two different computations which both have the same result type into one`
			* function which will run the appropriate computation based on the parameter supplied in the `Either` value.
			`*`
			`* @since 2.10.0`
			`*/`
			`export declare function fanIn<P extends URIS4>(`
			`P: Choice4<P>,`
			`C: Category4<P>`
			`): <S, R, A, B, C>(pac: Kind4<P, S, R, A, C>, pbc: Kind4<P, S, R, B, C>) => Kind4<P, S, R, Either<A, B>, C>`
			`export declare function fanIn<P extends URIS3>(`
			`P: Choice3<P>,`
			`C: Category3<P>`
			`): <R, A, B, C>(pac: Kind3<P, R, A, C>, pbc: Kind3<P, R, B, C>) => Kind3<P, R, Either<A, B>, C>`
			`export declare function fanIn<P extends URIS2>(`
			`P: Choice2<P>,`
			`C: Category2<P>`
			`): <A, B, C>(pac: Kind2<P, A, C>, pbc: Kind2<P, B, C>) => Kind2<P, Either<A, B>, C>`
			`export declare function fanIn<P>(`
			`P: Choice<P>,`
			`C: Category<P>`
			`): <A, B, C>(pac: HKT2<P, A, C>, pbc: HKT2<P, B, C>) => HKT2<P, Either<A, B>, C>`
			`/**`
			* Use [`split`](#split) instead.
			`*`
			`* @category zone of death`
			`* @since 2.0.0`
			`* @deprecated`
			`*/`
			`export declare function splitChoice<F extends URIS3>(`
			`F: Category3<F> & Choice3<F>`
			`): <R, A, B, C, D>(pab: Kind3<F, R, A, B>, pcd: Kind3<F, R, C, D>) => Kind3<F, R, Either<A, C>, Either<B, D>>`
			`/** @deprecated */`
			`export declare function splitChoice<F extends URIS2>(`
			`F: Category2<F> & Choice2<F>`
			`): <A, B, C, D>(pab: Kind2<F, A, B>, pcd: Kind2<F, C, D>) => Kind2<F, Either<A, C>, Either<B, D>>`
			`/** @deprecated */`
			`export declare function splitChoice<F>(`
			`F: Category<F> & Choice<F>`
			`): <A, B, C, D>(pab: HKT2<F, A, B>, pcd: HKT2<F, C, D>) => HKT2<F, Either<A, C>, Either<B, D>>`
			`/**`
			* Use [`fanIn`](#fanIn) instead.
			`*`
			`* @since 2.0.0`
			`* @deprecated`
			`*/`
			`export declare function fanin<F extends URIS3>(`
			`F: Category3<F> & Choice3<F>`
			`): <R, A, B, C>(pac: Kind3<F, R, A, C>, pbc: Kind3<F, R, B, C>) => Kind3<F, R, Either<A, B>, C>`
			`/** @deprecated */`
			`export declare function fanin<F extends URIS2>(`
			`F: Category2<F> & Choice2<F>`
			`): <A, B, C>(pac: Kind2<F, A, C>, pbc: Kind2<F, B, C>) => Kind2<F, Either<A, B>, C>`
			`/** @deprecated */`
			`export declare function fanin<F>(`
			`F: Category<F> & Choice<F>`
			`): <A, B, C>(pac: HKT2<F, A, C>, pbc: HKT2<F, B, C>) => HKT2<F, Either<A, B>, C>`